DE10051580A1 - Hydraulic accumulators, especially bladder accumulators - Google Patents

Abstract

The invention relates to a hydroaccumulator, in particular a bladder accumulator. Said accumulator comprises a pressurised container (1), a separation element (5) which is located in said container and separates a gas chamber (7) in the pressurised container (1), lying adjacent to an inlet on the gas side from a fluid chamber (9), lying adjacent to an inlet on the fluid side (3), said inlet having a fluid connecting sleeve (11) and a valve arrangement located on the connecting sleeve (11), said arrangement having at least one valve body (17) that has a transversal bore (33). The valve body is usually pretensioned in an open position which allows the passage of fluid and can be displaced into a closed position by a displacement of the separation element (5), the interior surface (15) of the connecting sleeve (11), which lies directly against the valve body (17), guiding the displacement of said body between the open and closed positions. As the side of the valve body (17') that faces the separation element (5) is configured as a plate running on one plane, as the respective transversal bore (33), which is delimited by the plate (17') in the open position, opens at least partially into the fluid chamber (9) and as the diameter of the valve body (17) is greater than its height, measured in the direction of displacement of said valve body (17), the valve arrangement has a plate-valve construction of small proportions and can be cost-effectively produced.

Description

The invention relates to a hydraulic accumulator, in particular bubbles memory, with a pressure vessel, one arranged in this after common separating element that one in the pressure vessel to a gas side Access separates adjacent gas space from a fluid space that connects to one adjoining fluid-side access, which has a fluid connection piece points, and with a valve assembly located on the connecting piece a valve body that normally clears the fluid passage in its biased open position and by a movement of the Trennele mentes is movable into its closed position.

Hydraulic accumulators of this type are commercially available. In a specialist book "Der Hydraulik Trainer Band 1 " published by Mannesmann Rexroth GmbH, a bladder accumulator of the type mentioned above is shown and described on page 165. In the known bladder accumulator, the valve arrangement is designed as a poppet valve, a conical surface being formed on the fluid space facing the end edge of the connecting piece as a fixed valve seat, which cooperates with a corresponding conical surface on a valve plate of the movable valve body. This is designed Lich Lich as the usual control valves in valve-controlled internal combustion engines, ie the valve plate is located on a shaft which is guided for the valve stroke movement between the open position and the closed position in a valve guide which is built into the connecting piece.

The disadvantage here is the resulting high manufacturing costs due to the effort required to manufacture and process the a large number of individual parts due to this valve design. To one To ensure proper functioning of the valve assembly, the in the connection pipe built-in valve guide with regard to the ferti tolerances, both in terms of alignment and fit, be carefully designed. A corresponding processing of the conical surfaces forming the valve seat are required.

The invention is based on this prior art gift to create a hydraulic accumulator that is comparatively simple and is cheaper to produce.

In a hydraulic accumulator of the type mentioned, this task is solved according to the invention in that the inner surface of the connecting piece for the valve body lying directly against it, the guide for it Forms movement between the open position and the closed position. By the Elimination of a separate valve to be installed in the connecting piece management results in a significant reduction in effort for Her positioning, processing and assembly.

The production is particularly simple if the valve arrangement is designed in the manner of a slide valve and which as the valve housing Nende connecting piece with its circular cylindrical inner surface, the piston bore  defi for the valve body designed as a spool ned.

In such exemplary embodiments, the arrangement can be such that that the end edge of the piston bore of the Connecting piece the control edge for releasing and closing a or more fluid channels of the slide piston forms.

Number and cross-sectional size of Boh formed in the spool stanchions that serve as fluid channels can be chosen so that when passing fluid results in a desired throttling, so that when Operation of the hydraulic accumulator depending on the intended application result in optimal damping ratios.

The piston bore guiding the slide piston can preferably be on a tapered Boh in its end region adjacent to the fluid space tion section through which an annular shoulder surface is formed, projecting radially in cooperation with one on the spool the counter shoulder surface forms a stop on which the slide piston in the open position of the valve.

The invention is illustrated below with reference to the drawing Exemplary embodiments explained in detail. Show it:

Figure 1 is a broken longitudinal section of a Ausführungsbeispie les a bladder memory according to the invention, only the part of the memory adjacent to the fluid-side connection piece with the Venti lanordnung associated with the connection piece, which is in the open position, is shown.

FIG. 2 shows a longitudinal section of the fluid connecting piece of a second exemplary embodiment, shown on a much larger scale in comparison to FIG. 1, the valve arrangement being shown in the closed position, and

Fig. 3 is a section similar to FIG. 1, with a third exemplary embodiment and fourth exemplary embodiment shown on the left and right sides and the valve arrangement being shown in the open position.

In the drawing of Fig. 1 of the pressure vessel 1, only the section adjacent to the fluid side access 3 is shown. At the ge not shown, opposite end portion of the pressure vessel 1 there is a gas-side access to the interior of a storage bladder 5 , which is only indicated in FIG. 3 and which forms the movable separating element bil, which separates the gas space 7 located inside it from the fluid space 9 ,

In the embodiment shown in FIG. 1, a fluid connection stub 11 is welded into the wall of the pressure vessel 1 at the adjacent end of the fluid space 9 as the fluid-side access 3 . The connecting piece 11 is designed in the form of a circular cylindrical sleeve which has an internal thread 13 in the section adjoining its free, outer end for the connection of a fluid line, not shown. In the Flui draum 9 adjacent end region, the connecting piece 11 forms a Kol benbohrung 15 , in which a slide piston 17 is guided. The connecting piece 11 thus forms the valve housing for a slide valve with the slide piston 17 serving as a movable valve body, which is guided directly on the inner surface of the piston bore 15 of the connection piece 11 for its movement along the longitudinal axis 19 of the piston bore 15 and between a in Fig. 1 and 3 open position and a closed position shown in Fig. 2 is movable.

The slide piston 17 is biased by a helical compression spring 21 into the open position shown in FIGS. 1 and 3. From this position it is when it presses with a corresponding expansion of the bladder 5 against the top 23 of the reservoir piston 17, against the force of the compression spring 21 into the position shown in Fig. 2 slidably closed position.

The compression spring 21 is supported with its end facing away from the spool 17 on a support plate 25 which rests in the connecting piece 11 on a paragraph located at the adjacent end of the piston bore 15 and is held in the embodiment of FIG. 1 by a retaining ring 27 . In the alternative example of FIG. 2, the support plate 25 is secured by means of a flat snap ring 29 . Apart from this un difference, the embodiment of FIG. 2 corresponds to that of FIG. 1st

The between the support plate 25 and the slide piston 17 clamped compression spring 21 extends into an axial bore 31 , which is formed in the slide piston 17 , concentric with the longitudinal axis 19 , at its end facing away from the fluid chamber 9 and opens into transverse bores 33 in the slide piston 17 . These transverse bores run in the vicinity of the top 23 of the slide piston 17 radially and at right angles to one another, so that they overlap on the longitudinal axis 19 . This transverse bores 33 form in the slide piston 17 fluid channels, which cooperate with the valve control edge and which form the fluid access to the fluid chamber 9 via the axial bore 31 of the spool 17 and through holes 35 in the support plate 25 when the gate valve as shown in FIG. 1, and 3 open position shown.

In the position of the slide piston 17 shown in FIG. 2, the openings of the transverse bore 33 are closed by the control edge formed on the upper end edge 37 of the connecting piece 11 serving as the valve housing, see FIG. 2. As can be seen from this figure, the column forms benbohrung 15 in its end portion a tapered bore portion with an annular shoulder surface 39 , which forms a stop in cooperation with a counter shoulder surface 41 provided on the slide piston 17 (see FIG. 2), which limits the movement of the slide piston 17 in the direction of the fluid chamber 9 . Fig. 1, the corresponding, defined by this stopper means indicates position of the slide piston 17.

In both of the exemplary embodiments shown in FIG. 3, the support plate 25 forming the abutment for the compression spring 21 is provided with an external thread and screwed into the female thread 13 formed in the connection piece 11 at the end.

In the embodiment shown on the right in FIG. 3, the connection spigot 11 in the section adjacent to the end edge 37 has an external thread 43 which is screwed to a corresponding internal thread of the wall of the pressure vessel 1 . The wall thickness of the Druckbe container 1 is formed larger for this purpose in the threaded area.

The embodiment shown on the left in FIG. 3 has a connecting piece 11 integrally formed on the pressure vessel 1 by hot or cold forming and does not differ from the example shown on the right in the same figure.

Above, the invention is in the form of exemplary embodiments described by bladder memories. However, it is understood that the inventor with advantage equally with hydraulic accumulators of other types, at for example in the case of diaphragm accumulators or piston accumulators.

Claims (12)

1. Hydraulic accumulator, in particular bladder accumulator, with a pressure vessel ( 1 ), a resilient separating element ( 5 ) arranged in it, which separates a gas space ( 7 ) adjacent to a gas-side access from a fluid space ( 9 ) in the pressure vessel ( 1 ) a fluid-side access ( 3 ) adjoins, which has a fluid connection piece ( 11 ), and with a valve arrangement located on the connection piece ( 11 ) with a valve body ( 17 ), which is normally biased into its fluid-opening position and by a movement of the separating element ( 5 ) is movable into its closed position, characterized in that the inner surface ( 15 ) of the connecting piece ( 11 ) for the valve body ( 17 ) lying directly against it forms the guide for its movement between the open position and the closed position. 2. Hydraulic accumulator according to claim 1, characterized in that the Ven valve arrangement is designed in the manner of a slide valve and the serving as a valve housing connecting piece ( 11 ) with its inner circular cylindrical surface defines the piston bore ( 15 ) for the valve body designed as a slide piston ( 17 ) , 3. Hydraulic accumulator according to claim 2, characterized in that the slide piston ( 17 ) at least one transverse to the longitudinal axis ( 19 ) of the Kol benbohrung ( 15 ) transverse bore ( 33 ) with the fluid chamber ( 9 ) connectable fluid channel and at least one in the axial direction ver running, in the transverse bore ( 33 ) opening axial bore ( 31 ), which is open on the side facing away from the fluid chamber ( 9 ) of the slide piston ( 17 ), and that the control edge adjoining the fluid chamber ( 9 ) for releasing and Closing the mouth of the transverse bore ( 33 ) forms. 4. Hydraulic accumulator according to claim 3, characterized by a in the Kol benbohrung ( 15 ) on the side facing away from the fluid chamber ( 9 ) of the slide piston ( 17 ) anchored by at least one Durchgangsboh tion ( 35 ) perforated support plate ( 25 ), which serves as an abutment for clamped between it and the sliding piston (17) spring means (21) for generating the spool (17) in the pressing of fenstellung biasing force is used. 5. Hydraulic accumulator according to one of claims 2 to 4, characterized in that the number and cross-sectional size of the in the slide piston ( 17 ) in the axial direction and / or in the transverse direction bores ( 31 , 33 ) with a view to a desired, he resulting in the passage of fluid Throttling are selected. 6. Hydraulic accumulator according to claims 4 and 5, characterized in that the spring arrangement has a helical compression spring ( 21 ) and that one in the slide piston ( 17 ) centrally located in the axial bore ( 31 ) with its opening into the at least one transverse bore ( 33 ) Endbe rich serves as an abutment for the piston ( 17 ) clamped between the support plate ( 25 ) and the slide valve, which engages in the axial bore ( 31 ) helical compression spring ( 21 ). 7. Hydraulic accumulator according to one of claims 2 to 6, characterized in that the piston bore ( 15 ) at its fluid area ( 9 ) be adjacent end region ( 37 ) forms a tapered bore section to form an annular shoulder surface ( 39 ), which in cooperation with one on the slide piston ( 17 ) radially projecting counter-shoulder surface ( 41 ) forms a stop on which the slide piston ( 17 ) in the open position is under the influence of the biasing force acting on it. 8. Hydraulic accumulator according to one of claims 2 to 7, characterized in that the slide piston ( 17 ) in the vicinity of its flui draum ( 9 ) end facing two mutually at right angles continuous transverse bores ( 33 ) on the overlap the central longitudinal axis ( 19 ) of the slide piston ( 17 ). 9. Hydraulic accumulator according to one of claims 1 to 8, characterized in that the connecting piece ( 11 ) is welded into an end opening of the pressure vessel ( 1 ). 10. Hydraulic accumulator according to one of claims 1 to 8, characterized in that the connecting piece ( 11 ) at one end of the Druckbehäl age ( 1 ) is integrally formed by hot or cold forming on this. 11. Hydraulic accumulator according to one of claims 1 to 8, characterized in that the connecting piece ( 11 ) in its section facing the fluid chamber ( 9 ) has an external thread ( 43 ) and an internal thread in the associated end opening of the pressure container ( 1 ) is screwed. 12. Hydraulic accumulator according to claim 4 and one of the other claims 1 to 11, characterized in that the connecting piece ( 11 ) in which to the piston bore ( 15 ) on the side facing away from the fluid chamber has an internal thread ( 13 ) into which the support plate ( 25 ) with external thread is screwed in.